Downlink control information sending method and device, and downlink control information receiving method and device

ABSTRACT

The present invention discloses a downlink control information sending method and device, and a downlink control information receiving method and device. The sending method includes: sending, by a base station device, downlink control information DCI on a physical downlink control channel PDCCH of a downlink subframe, where the DCI is used to instruct user equipment UE to receive physical downlink shared channel PDSCH information in an uplink subframe; and sending the PDSCH information in the uplink subframe. In this way, the base station can effectively schedule an uplink subframe, and a purpose of transmitting a downlink service by using an uplink subframe is achieved, which not only improves utilization of a wireless spectrum resource corresponding to the uplink subframe, but also effectively diverts load pressure of a wireless spectrum resource corresponding to a downlink subframe. Therefore, overall utilization of wireless spectrum resources of a system is improved.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/363,327, filed on Nov. 29, 2016, which is a continuation ofInternational Application No. PCT/CN2014/079007, filed on May 30, 2014,All of the afore-mentioned patent applications are hereby incorporatedby reference in their entireties.

TECHNICAL FIELD

The present invention relates to the field of wireless communicationstechnologies, and in particular, to a downlink control informationsending method and device, and a downlink control information receivingmethod and device.

BACKGROUND

With an increase in a quantity of users in a mobile communicationssystem, and in particular, an increase in a traffic volume number of asingle user, wireless resources are increasingly becoming scarceresources.

In an FDD (frequency division duplex) system, a same bandwidth is usedfor an uplink frequency band and a downlink frequency band. However,currently, an uplink traffic volume is far less than a downlink trafficvolume, which means that relatively more wireless spectrum resourcesneed to be allocated, to meet a requirement of the downlink trafficvolume. It is learned from a use process that when these wirelessspectrum resources are used for transmitting an uplink service, a largequantity of wireless spectrum resources are idle, and this problemcauses relatively low utilization of the wireless spectrum resources.

SUMMARY

In view of this, embodiments of the present invention provide a downlinkcontrol information sending method and device, and a downlink controlinformation receiving method and device, which are used to resolve anexisting problem of relatively low utilization of a wireless spectrumresource.

According to a first aspect of the present invention, a downlink controlinformation sending method is provided, including:

sending, by a base station device, downlink control information DCI on aphysical downlink control channel PDCCH of a downlink subframe, wherethe DCI is used to instruct user equipment UE to receive physicaldownlink shared channel PDSCH information in an uplink subframe; and

sending, by the base station device, the PDSCH information in the uplinksubframe.

With reference to the first aspect of the present invention, in a firstpossible implementation manner, the method further includes:

sending, by the base station device, a notification message to the userequipment UE, where the notification message is used to indicate acorrespondence between a subframe number of a downlink subframe used tosend DCI and a subframe number of an uplink subframe used to send PDSCHinformation, and the notification message includes at least one or moreof a system information block SIB or radio resource control RRCsignaling.

With reference to the first aspect of the present invention, in a secondpossible implementation manner, the sending, by a base station device,DCI on a PDCCH of a downlink subframe meets: a quantity of bits of theDCI sent by the base station device is the same as a quantity of bits ofDCI format 0/format 1A sent by the base station, and the DCI sent by thebase station device includes a check code CRC and/or a scrambling code,where the CRC and/or the scrambling code is used to instruct the UE toreceive the physical downlink shared channel PDSCH information in theuplink subframe.

With reference to the second possible implementation manner of the firstaspect of the present invention, in a third possible implementationmanner, a subframe number of the uplink subframe used to instruct the UEto receive the PDSCH information is the same as a subframe number of thedownlink subframe used by the base station device to send the DCI.

With reference to the second possible implementation manner of the firstaspect of the present invention, or with reference to the third possibleimplementation manner of the first aspect of the present invention, in afourth possible implementation manner, before the sending, by a basestation device, downlink control information DCI on a physical downlinkcontrol channel PDCCH of a downlink subframe, the method furtherincludes:

sending, by the base station device, downlink transmission modeinformation to the user equipment UE, where the downlink transmissionmode information is used to instruct the UE to detect format informationof the downlink control information DCI.

With reference to the fourth possible implementation manner of the firstaspect of the present invention, in a fifth possible implementationmanner, the sending, by the base station device, downlink transmissionmode information to the user equipment UE includes:

sending, by the base station device, the downlink transmission modeinformation to the user equipment UE by using radio resource control RRCsignaling.

With reference to the first aspect of the present invention, withreference to the first possible implementation manner of the firstaspect of the present invention, with reference to the second possibleimplementation manner of the first aspect of the present invention, withreference to the third possible implementation manner of the firstaspect of the present invention, with reference to the fourth possibleimplementation manner of the first aspect of the present invention, orwith reference to the fifth possible implementation manner of the firstaspect of the present invention, in a sixth possible implementationmanner, before the sending, by a base station device, downlink controlinformation DCI on a physical downlink control channel PDCCH of adownlink subframe, the method further includes:

selecting, by the base station device, an uplink subframe that can beused to send the PDSCH information, and determining, according to thecorrespondence between a subframe number of a downlink subframe used tosend DCI and a subframe number of an uplink subframe used to send PDSCHinformation, a subframe number that is of a downlink subframe andcorresponding to a subframe number of the selected uplink subframe usedto send the PDSCH information;

the sending, by a base station device, downlink control information DCIon a physical downlink control channel PDCCH of a downlink subframeincludes:

sending, by the base station device, the downlink control informationDCI on the physical downlink control channel PDCCH of the downlinksubframe corresponding to the determined subframe number of the downlinksubframe; and

the sending, by the base station device, the PDSCH information in theuplink subframe includes:

sending, by the base station device, the PDSCH information in theselected uplink subframe.

With reference to the first aspect of the present invention, withreference to the first possible implementation manner of the firstaspect of the present invention, with reference to the second possibleimplementation manner of the first aspect of the present invention, withreference to the third possible implementation manner of the firstaspect of the present invention, with reference to the fourth possibleimplementation manner of the first aspect of the present invention, withreference to the fifth possible implementation manner of the firstaspect of the present invention, or with reference to the sixth possibleimplementation manner of the first aspect of the present invention, in aseventh possible implementation manner, the uplink subframe used by thebase station device to send the PDSCH information is used to send onlythe PDSCH information, and is not used to send PDCCH information,physical control format indicator channel PCFICH information, orphysical hybrid automatic repeat request indicator channel PHICHinformation.

With reference to the first aspect of the present invention, withreference to the first possible implementation manner of the firstaspect of the present invention, with reference to the second possibleimplementation manner of the first aspect of the present invention, withreference to the third possible implementation manner of the firstaspect of the present invention, with reference to the fourth possibleimplementation manner of the first aspect of the present invention, withreference to the fifth possible implementation manner of the firstaspect of the present invention, with reference to the sixth possibleimplementation manner of the first aspect of the present invention, orwith reference to the seventh possible implementation manner of thefirst aspect of the present invention, in an eighth possibleimplementation manner, the uplink subframe is carried on an uplinkcarrier, the downlink subframe is carried on a downlink carrier, and theuplink carrier and the downlink carrier are wireless spectrum resourcesconfigured in a frequency division duplex FDD system.

According to a second aspect of the present invention, a downlinkcontrol information receiving method is provided, including:

receiving, by user equipment UE, downlink control information DCI sentby a base station device, where the DCI instructs the UE to receivephysical downlink shared channel PDSCH information in an uplinksubframe; and

receiving, by the UE according to the DCI, the PDSCH information sent bythe base station device in the uplink subframe.

With reference to the second aspect of the present invention, in a firstpossible implementation manner, the method further includes:

receiving, by the user equipment UE, a notification message sent by thebase station device, where the notification message is used to indicatea correspondence between a subframe number of a downlink subframe usedto send DCI and a subframe number of an uplink subframe used to sendPDSCH information, and the notification message includes at least one ormore of a system information block SIB or radio resource control RRCsignaling.

With reference to the second aspect of the present invention, or withreference to the first possible implementation manner of the secondaspect of the present invention, in a second possible implementationmanner, the receiving, by UE, downlink control information DCI sent by abase station device includes:

receiving, by the UE in a blind detection manner, the DCI sent by thebase station device.

With reference to the second aspect of the present invention, in a thirdpossible implementation manner, before the receiving, by UE, downlinkcontrol information DCI sent by a base station device, the methodfurther includes:

receiving, by the user equipment UE, downlink transmission modeinformation sent by the base station device, where the downlinktransmission mode information is used to instruct the UE to detectformat information of the downlink control information DCI.

With reference to the third possible implementation manner of the secondaspect of the present invention, in a fourth possible implementationmanner, the receiving, by UE, downlink control information DCI sent by abase station device includes:

performing, by the UE according to the downlink transmission modeinformation, blind detection on the downlink control information DCIsent by the base station device, where the DCI sent by the base stationdevice meets: a quantity of bits of the DCI sent by the base stationdevice is the same as a quantity of bits of DCI format 0/format 1A sentby the base station device, and the DCI sent by the base station deviceincludes a check code CRC and/or a scrambling code, where the CRC and/orthe scrambling code is used to instruct the UE to receive the physicaldownlink shared channel PDSCH information in the uplink subframe.

With reference to the fourth possible implementation manner of thesecond aspect of the present invention, in a fifth possibleimplementation manner, the performing, by the UE according to thedownlink transmission mode information, blind detection on the downlinkcontrol information DCI sent by the base station device includes:

descrambling or demasking, by the UE each time a piece of DCI isdetected, a check code CRC of the detected DCI by using a scrambling ormasking C-RNTI code x_(rnti,k), and determining whether the CRC obtainedafter the descrambling or demasking is b_(k) ; and

if the obtained CRC is not b_(k), descrambling or demasking the CRC ofthe detected DCI by using the scrambling or masking C-RNTI codex_(rnti,k) and a scrambling code a_(k), and determining, when it isdetermined that the CRC obtained after the descrambling or demasking isC_(k), that the DCI sent by the base station device and used to instructthe UE to receive the PDSCH information in the uplink subframe isreceived.

With reference to the second aspect of the present invention, withreference to the first possible implementation manner of the secondaspect of the present invention, with reference to the second possibleimplementation manner of the second aspect of the present invention,with reference to the third possible implementation manner of the secondaspect of the present invention, with reference to the fourth possibleimplementation manner of the second aspect of the present invention, orwith reference to the fifth possible implementation manner of the secondaspect of the present invention, in a sixth possible implementationmanner, after the receiving, by UE, DCI sent by a base station device,the method further includes:

determining, by the UE, a subframe number of a downlink subframe inwhich the DCI is received; and

the receiving, by the UE according to the DCI, the PDSCH informationsent by the base station device in the uplink subframe includes:

determining, by the UE according to the correspondence between asubframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thedetermined subframe number of the downlink subframe in which the DCI isreceived, a subframe number of the uplink subframe used by the basestation device to send the PDSCH information; and

receiving, by the UE in the uplink subframe corresponding to thedetermined subframe number of the uplink subframe, the PDSCH informationsent by the base station device.

With reference to the second aspect of the present invention, withreference to the first possible implementation manner of the secondaspect of the present invention, with reference to the second possibleimplementation manner of the second aspect of the present invention,with reference to the third possible implementation manner of the secondaspect of the present invention, with reference to the fourth possibleimplementation manner of the second aspect of the present invention,with reference to the fifth possible implementation manner of the secondaspect of the present invention, or with reference to the sixth possibleimplementation manner of the second aspect of the present invention, ina seventh possible implementation manner, when the UE receives the PDSCHinformation, the method further includes:

sending, by the UE, acknowledgment/non-acknowledgment ACK/NACK to thebase station device.

With reference to the seventh possible implementation manner of thesecond aspect of the present invention, in an eighth possibleimplementation manner, the sending, by the UE, ACK/NACK to the basestation device includes:

determining, by the UE according to a correspondence between a subframenumber of a downlink subframe used to receive DCI and a subframe numberof an uplink subframe used to send ACK/NACK, a subframe number of anuplink subframe used to send the ACK/NACK, and sending the ACK/NACK inthe uplink subframe corresponding to the determined subframe number ofthe uplink subframe.

With reference to the seventh possible implementation manner of thesecond aspect of the present invention, in a ninth possibleimplementation manner, the sending, by the UE, ACK/NACK to the basestation device includes:

determining, by the UE according to a correspondence between a subframenumber of an uplink subframe used to receive PDSCH information and asubframe number of an uplink subframe used to send ACK/NACK, a subframenumber of an uplink subframe used to send the ACK/NACK, and sending theACK/NACK in the uplink subframe corresponding to the determined subframenumber of the uplink subframe.

With reference to the seventh possible implementation manner of thesecond aspect of the present invention, or with reference to the eighthpossible implementation manner of the second aspect of the presentinvention, in a ninth possible implementation manner, the sending, bythe UE, the ACK/NACK in the uplink subframe corresponding to thedetermined subframe number of the uplink subframe includes:

reselecting, by the UE when it is determined that the uplink subframecorresponding to the subframe number of the uplink subframe used to sendthe ACK/NACK has been scheduled for sending a downlink service, anuplink subframe that has not been scheduled for sending a downlinkservice and whose difference from the determined subframe number of theuplink subframe is the smallest, and sending the ACK/NACK in thereselected uplink subframe.

According to a third aspect of the present invention, a downlink controlinformation sending device is provided, including:

a downlink control information DCI sending module, configured to senddownlink control information DCI on a physical downlink control channelPDCCH of a downlink subframe, where the DCI is used to instruct userequipment UE to receive physical downlink shared channel PDSCHinformation in an uplink subframe; and

a physical downlink shared channel PDSCH information sending module,configured to send the PDSCH information in the uplink subframe.

With reference to the third aspect of the present invention, in a firstpossible implementation manner, the device further includes:

a notification message sending module, configured to send a notificationmessage to the user equipment UE, where the notification message is usedto indicate a correspondence between a subframe number of a downlinksubframe used to send DCI and a subframe number of an uplink subframeused to send PDSCH information, and the notification message includes atleast one or more of a system information block SIB or radio resourcecontrol RRC signaling.

With reference to the third aspect of the present invention, in a secondpossible implementation manner, that the sending device sends the DCI onthe PDCCH of the downlink subframe meets: a quantity of bits of the DCIsent by the sending device is the same as a quantity of bits of DCIformat 0/format 1A sent by the sending device, and the DCI sent by thesending device includes a check code CRC and/or a scrambling code, wherethe CRC and/or the scrambling code is used to instruct the UE to receivethe physical downlink shared channel PDSCH information in the uplinksubframe.

With reference to the second possible implementation manner of the thirdaspect of the present invention, in a third possible implementationmanner, a subframe number of the uplink subframe used to instruct the UEto receive the PDSCH information is the same as a subframe number of thedownlink subframe used by the sending device to send the DCI.

With reference to the second possible implementation manner of the thirdaspect of the present invention, or with reference to the third possibleimplementation manner of the third aspect of the present invention, in afourth possible implementation manner, the sending device furtherincludes: a mode information sending module, and

the mode information sending module is configured to send downlinktransmission mode information to the user equipment UE before the DCIsending module sends the downlink control information DCI on thephysical downlink control channel PDCCH of the downlink subframe, wherethe downlink transmission mode information is used to instruct the UE todetect format information of the downlink control information DCI.

With reference to the fourth possible implementation manner of the thirdaspect of the present invention, in a fifth possible implementationmanner, the mode information sending module is specifically configuredto send the downlink transmission mode information to the user equipmentUE by using radio resource control RRC signaling.

With reference to the third aspect of the present invention, withreference to the first possible implementation manner of the thirdaspect of the present invention, with reference to the second possibleimplementation manner of the third aspect of the present invention, withreference to the third possible implementation manner of the thirdaspect of the present invention, with reference to the fourth possibleimplementation manner of the third aspect of the present invention, orwith reference to the fifth possible implementation manner of the thirdaspect of the present invention, in a sixth possible implementationmanner, the sending device further includes: a subframe determiningmodule, where

the subframe determining module is configured to: before the DCI sendingmodule sends the downlink control information DCI on the physicaldownlink control channel PDCCH of the downlink subframe, select anuplink subframe that can be used to send the PDSCH information, anddetermine, according to a correspondence between a subframe number of adownlink subframe used to send DCI and a subframe number of an uplinksubframe used to send PDSCH information, a subframe number that is of adownlink subframe and corresponding to a subframe number of the selecteduplink subframe used to send the PDSCH information;

the DCI sending module is specifically configured to send the downlinkcontrol information DCI on the physical downlink control channel PDCCHof the downlink subframe corresponding to the determined subframe numberof the downlink subframe; and

the PDSCH sending module is specifically configured to send the PDSCHinformation in the selected uplink subframe.

With reference to the third aspect of the present invention, withreference to the first possible implementation manner of the thirdaspect of the present invention, with reference to the second possibleimplementation manner of the third aspect of the present invention, withreference to the third possible implementation manner of the thirdaspect of the present invention, with reference to the fourth possibleimplementation manner of the third aspect of the present invention, withreference to the fifth possible implementation manner of the thirdaspect of the present invention, or with reference to the sixth possibleimplementation manner of the third aspect of the present invention, in aseventh possible implementation manner, the uplink subframe used by thesending device to send the PDSCH information is used to send only thePDSCH information, and is not used to send PDCCH information, physicalcontrol format indicator channel PCFICH information, or physical hybridautomatic repeat request indicator channel PHICH information.

With reference to the third aspect of the present invention, withreference to the first possible implementation manner of the thirdaspect of the present invention, with reference to the second possibleimplementation manner of the third aspect of the present invention, withreference to the third possible implementation manner of the thirdaspect of the present invention, with reference to the fourth possibleimplementation manner of the third aspect of the present invention, withreference to the fifth possible implementation manner of the thirdaspect of the present invention, with reference to the sixth possibleimplementation manner of the third aspect of the present invention, orwith reference to the seventh possible implementation manner of thethird aspect of the present invention, in an eighth possibleimplementation manner, the uplink subframe is carried on an uplinkcarrier, the downlink subframe is carried on a downlink carrier, and theuplink carrier and the downlink carrier are wireless spectrum resourcesconfigured in a frequency division duplex FDD system.

According to a fourth aspect of the present invention, a downlinkcontrol information receiving device is provided, including:

a downlink control information DCI receiving module, configured toreceive downlink control information DCI sent by a base station device,where the DCI instructs the UE to receive physical downlink sharedchannel PDSCH information in an uplink subframe; and

a physical downlink shared channel PDSCH information receiving module,configured to receive, according to the DCI received by the DCIreceiving module, the PDSCH information sent by the base station devicein the uplink subframe.

With reference to the fourth aspect of the present invention, in a firstpossible implementation manner, the receiving device further includes:

a notification message receiving module, configured to receive anotification message sent by the base station device, where thenotification message is used to indicate a correspondence between asubframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thenotification message includes at least one or more of a systeminformation block SIB or radio resource control RRC signaling.

With reference to the fourth aspect of the present invention, or withreference to the first possible implementation manner of the fourthaspect of the present invention, in a second possible implementationmanner, the DCI receiving module is specifically configured to receive,in a blind detection manner, the DCI sent by the base station device.

With reference to the fourth aspect of the present invention, in a thirdpossible implementation manner, the receiving device further includes:

a transmission mode information receiving module, configured to receive,before the DCI receiving module receives the downlink controlinformation DCI sent by the base station device, downlink transmissionmode information sent by the base station device, where the downlinktransmission mode information is used to instruct the UE to detectformat information of the downlink control information DCI.

With reference to the third possible implementation manner of fourthaspect of the present invention, in a fourth possible implementationmanner, the DCI receiving module is specifically configured to perform,according to the downlink transmission mode information, blind detectionon the downlink control information DCI sent by the base station device,where the DCI sent by the base station device meets: a quantity of bitsof the DCI sent by the base station device is the same as a quantity ofbits of DCI format 0/format 1A sent by the base station device, and theDCI sent by the base station device includes a check code CRC and/or ascrambling code, where the CRC and/or the scrambling code is used toinstruct the UE to receive the physical downlink shared channel PDSCHinformation in the uplink subframe.

With reference to the fourth possible implementation manner of fourthaspect of the present invention, in a fifth possible implementationmanner, the DCI receiving module is specifically configured to:descramble or demask, each time a piece of DCI is detected, a check codeCRC of the detected DCI by using a scrambling or masking C-RNTI codex_(rnti,k) and determine whether the CRC obtained after the descramblingor demasking is b_(k); and

if the obtained CRC is not b_(k) descramble or demask the CRC of thedetected DCI by using the scrambling or masking C-RNTI code x_(rnti,k)and a scrambling code a_(k), and determine, when it is determined thatthe CRC obtained after the descrambling or demasking is C_(k), that theDCI sent by the base station device and used to instruct the UE toreceive the PDSCH information in the uplink subframe is received.

With reference to the fourth aspect of the present invention, withreference to the first possible implementation manner of the fourthaspect of the present invention, with reference to the second possibleimplementation manner of the fourth aspect of the present invention,with reference to the third possible implementation manner of the fourthaspect of the present invention, with reference to the fourth possibleimplementation manner of the fourth aspect of the present invention, orwith reference to the fifth possible implementation manner of the fourthaspect of the present invention, in a sixth possible implementationmanner, the receiving device further includes: a subframe numberdetermining module;

the subframe number determining module is configured to determine, afterthe DCI receiving module receives the DCI sent by the base stationdevice, a subframe number of a downlink subframe in which the DCI isreceived; and

the PDSCH information receiving module is specifically configured to:determine, according to the correspondence between a subframe number ofa downlink subframe used to send DCI and a subframe number of an uplinksubframe used to send PDSCH information, and the determined subframenumber of the downlink subframe in which the DCI is received, a subframenumber of the uplink subframe used by the base station device to sendthe PDSCH information; and receive, in the uplink subframe correspondingto the determined subframe number of the uplink subframe, the PDSCHinformation sent by the base station device.

With reference to the fourth aspect of the present invention, withreference to the first possible implementation manner of the fourthaspect of the present invention, with reference to the second possibleimplementation manner of the fourth aspect of the present invention,with reference to the third possible implementation manner of the fourthaspect of the present invention, with reference to the fourth possibleimplementation manner of the fourth aspect of the present invention,with reference to the fifth possible implementation manner of the fourthaspect of the present invention, or with reference to the sixth possibleimplementation manner of the fourth aspect of the present invention, ina seventh possible implementation manner, the receiving device furtherincludes: a sending module, and

the sending module is configured to sendacknowledgment/non-acknowledgment ACK/NACK to the base station devicewhen the PDSCH information receiving module receives the PDSCHinformation.

With reference to the seventh possible implementation manner of thefourth aspect of the present invention, in an eighth possibleimplementation manner, the sending module is specifically configured to:determine, according to a correspondence between a subframe number of adownlink subframe used to receive DCI and a subframe number of an uplinksubframe used to send ACK/NACK, a subframe number of an uplink subframeused to send the ACK/NACK, and send the ACK/NACK in the uplink subframecorresponding to the determined subframe number of the uplink subframe.

With reference to the seventh possible implementation manner of thefourth aspect of the present invention, in a ninth possibleimplementation manner, the sending module is specifically configured to:determine, according to a correspondence between a subframe number of anuplink subframe used to receive PDSCH information and a subframe numberof an uplink subframe used to send ACK/NACK, a subframe number of anuplink subframe used to send the ACK/NACK, and send the ACK/NACK in theuplink subframe corresponding to the determined subframe number of theuplink subframe.

With reference to the seventh possible implementation manner of thefourth aspect of the present invention, or with reference to the eighthpossible implementation manner of the fourth aspect of the presentinvention, in a ninth possible implementation manner, the sending moduleis specifically configured to: reselect, when it is determined that theuplink subframe corresponding to the subframe number of the uplinksubframe used to send the ACK/NACK has been scheduled for sending adownlink service, an uplink subframe that has not been scheduled forsending a downlink service and whose difference from the determinedsubframe number of the uplink subframe is the smallest, and send theACK/NACK in the reselected uplink subframe.

According to a fifth aspect of the present invention, a downlink controlinformation sending device is provided, including:

a signal transmitter, configured to send downlink control informationDCI on a physical downlink control channel PDCCH of a downlink subframe,where the DCI is used to instruct user equipment UE to receive physicaldownlink shared channel PDSCH information in an uplink subframe; and

the signal transmitter is further configured to send the PDSCHinformation in the uplink subframe.

With reference to the fifth aspect of the present invention, in a firstpossible implementation manner, the signal transmitter is furtherconfigured to send a notification message to the user equipment UE,where the notification message is used to indicate a correspondencebetween a subframe number of a downlink subframe used to send DCI and asubframe number of an uplink subframe used to send PDSCH information,and the notification message includes at least one or more of a systeminformation block SIB or radio resource control RRC signaling.

With reference to the fifth aspect of the present invention, in a secondpossible implementation manner, that the sending device sends the DCI onthe PDCCH of the downlink subframe meets: a quantity of bits of the DCIsent by the sending device is the same as a quantity of bits of DCIformat 0/format 1A sent by the sending device, and the DCI sent by thesending device includes a check code CRC and/or a scrambling code, wherethe CRC and/or the scrambling code is used to instruct the UE to receivethe physical downlink shared channel PDSCH information in the uplinksubframe.

With reference to the second possible implementation manner of the fifthaspect of the present invention, in a third possible implementationmanner, a subframe number of the uplink subframe used to instruct the UEto receive the PDSCH information is the same as a subframe number of thedownlink subframe used by the base station device to send the DCI.

With reference to the second possible implementation manner of the fifthaspect of the present invention, or with reference to the third possibleimplementation manner of the fifth aspect of the present invention, in afourth possible implementation manner, the signal transmitter is furtherconfigured to send downlink transmission mode information to the userequipment UE before sending the downlink control information DCI on thephysical downlink control channel PDCCH of the downlink subframe, wherethe downlink transmission mode information is used to instruct the UE todetect format information of the downlink control information DCI.

With reference to the fourth possible implementation manner of the fifthaspect of the present invention, in a fifth possible implementationmanner, the signal transmitter is specifically configured to send thedownlink transmission mode information to the user equipment UE by usingradio resource control RRC signaling.

With reference to the fifth aspect of the present invention, withreference to the first possible implementation manner of the fifthaspect of the present invention, with reference to the second possibleimplementation manner of the fifth aspect of the present invention, withreference to the third possible implementation manner of the fifthaspect of the present invention, with reference to the fourth possibleimplementation manner of the fifth aspect of the present invention, orwith reference to the fifth possible implementation manner of the fifthaspect of the present invention, in a sixth possible implementationmanner, the sending device further includes: a processor, where

the processor is configured to: before the downlink control informationDCI is sent on the physical downlink control channel PDCCH of thedownlink subframe, select an uplink subframe that can be used to sendthe PDSCH information, and determine, according to the correspondencebetween a subframe number of a downlink subframe used to send DCI and asubframe number of an uplink subframe used to send PDSCH information, asubframe number that is of a downlink subframe and corresponding to asubframe number of the selected uplink subframe used to send the PDSCHinformation;

the signal transmitter is specifically configured to send the downlinkcontrol information DCI on the physical downlink control channel PDCCHof the downlink subframe corresponding to the determined subframe numberof the downlink subframe; and

the signal transmitter is further specifically configured to send thePDSCH information in the selected uplink subframe.

With reference to the fifth aspect of the present invention, withreference to the first possible implementation manner of the fifthaspect of the present invention, with reference to the second possibleimplementation manner of the fifth aspect of the present invention, withreference to the third possible implementation manner of the fifthaspect of the present invention, with reference to the fourth possibleimplementation manner of the fifth aspect of the present invention, withreference to the fifth possible implementation manner of the fifthaspect of the present invention, or with reference to the sixth possibleimplementation manner of the fifth aspect of the present invention, in aseventh possible implementation manner, the uplink subframe used by thesending device to send the PDSCH information is used to send only thePDSCH information, and is not used to send PDCCH information, physicalcontrol format indicator channel PCFICH information, or physical hybridautomatic repeat request indicator channel PHICH information.

With reference to the fifth aspect of the present invention, withreference to the first possible implementation manner of the fifthaspect of the present invention, with reference to the second possibleimplementation manner of the fifth aspect of the present invention, withreference to the third possible implementation manner of the fifthaspect of the present invention, with reference to the fourth possibleimplementation manner of the fifth aspect of the present invention, withreference to the fifth possible implementation manner of the fifthaspect of the present invention, with reference to the sixth possibleimplementation manner of the fifth aspect of the present invention, orwith reference to the seventh possible implementation manner of thefifth aspect of the present invention, in an eighth possibleimplementation manner, the uplink subframe is carried on an uplinkcarrier, the downlink subframe is carried on a downlink carrier, and theuplink carrier and the downlink carrier are wireless spectrum resourcesconfigured in a frequency division duplex FDD system.

According to a sixth aspect of the present invention, a downlink controlinformation receiving device is provided, including:

a signal receiver, configured to receive downlink control informationDCI sent by a base station device, where the DCI instructs the UE toreceive physical downlink shared channel PDSCH information in an uplinksubframe; and

the signal receiver is further configured to receive, according to theDCI, the PDSCH information sent by the base station device in the uplinksubframe.

With reference to the sixth aspect of the present invention, in a firstpossible implementation manner, the signal receiver is furtherconfigured to receive a notification message sent by the base stationdevice, where the notification message is used to indicate acorrespondence between a subframe number of a downlink subframe used tosend DCI and a subframe number of an uplink subframe used to send PDSCHinformation, and the notification message includes at least one or moreof a system information block SIB or radio resource control RRCsignaling.

With reference to the sixth aspect of the present invention, or withreference to the first possible implementation manner of the sixthaspect of the present invention, in a second possible implementationmanner, the signal receiver is specifically configured to receive, in ablind detection manner, the DCI sent by the base station device.

With reference to the sixth aspect of the present invention, in a thirdpossible implementation manner, the signal receiver is furtherconfigured to receive, before receiving the downlink control informationDCI sent by the base station device, downlink transmission modeinformation sent by the base station device, where the downlinktransmission mode information is used to instruct the UE to detectformat information of the downlink control information DCI.

With reference to the third possible implementation manner of sixthaspect of the present invention, in a fourth possible implementationmanner, the signal receiver is specifically configured to perform,according to the downlink transmission mode information, blind detectionon the downlink control information DCI sent by the base station device,where the DCI sent by the base station device meets: a quantity of bitsof the DCI sent by the base station device is the same as a quantity ofbits of DCI format 0/format 1A sent by the base station device, and theDCI sent by the base station device includes a check code CRC and/or ascrambling code, where the CRC and/or the scrambling code is used toinstruct the UE to receive the physical downlink shared channel PDSCHinformation in the uplink subframe.

With reference to the fourth possible implementation manner of sixthaspect of the present invention, in a fifth possible implementationmanner, the signal receiver is specifically configured to: descramble ordemask, each time a piece of DCI is detected, a check code CRC of thedetected DCI by using a scrambling or masking C-RNTI code x_(rnti,k) anddetermine whether the CRC obtained after the descrambling or demaskingis b_(k); and

if the obtained CRC is not b_(k), descramble or demask the CRC of thedetected DCI by using the scrambling or masking C-RNTI code x_(rnti,k)and a scrambling code a_(k), and determine, when it is determined thatthe CRC obtained after the descrambling or demasking is C_(k), that theDCI sent by the base station device and used to instruct the UE toreceive the PDSCH information in the uplink subframe is received.

With reference to the sixth aspect of the present invention, withreference to the first possible implementation manner of the sixthaspect of the present invention, with reference to the second possibleimplementation manner of the sixth aspect of the present invention, withreference to the third possible implementation manner of the sixthaspect of the present invention, with reference to the fourth possibleimplementation manner of the sixth aspect of the present invention, orwith reference to the fifth possible implementation manner of the sixthaspect of the present invention, in a sixth possible implementationmanner, the receiving device further includes: a processor, where

the processor is configured to determine, after the signal receiverreceives the DCI sent by the base station device, a subframe number of adownlink subframe in which the DCI is received; and

the signal receiver is specifically configured to: determine, accordingto the correspondence between a subframe number of a downlink subframeused to send DCI and a subframe number of an uplink subframe used tosend PDSCH information, and the determined subframe number of thedownlink subframe in which the DCI is received, a subframe number of theuplink subframe used by the base station device to send the PDSCHinformation; and receive, in the uplink subframe corresponding to thedetermined subframe number of the uplink subframe, the PDSCH informationsent by the base station device.

With reference to the sixth aspect of the present invention, withreference to the first possible implementation manner of the sixthaspect of the present invention, with reference to the second possibleimplementation manner of the sixth aspect of the present invention, withreference to the third possible implementation manner of the sixthaspect of the present invention, with reference to the fourth possibleimplementation manner of the sixth aspect of the present invention, withreference to the fifth possible implementation manner of the sixthaspect of the present invention, or with reference to the sixth possibleimplementation manner of the sixth aspect of the present invention, in aseventh possible implementation manner, the receiving device furtherincludes: a signal transmitter, where

the signal transmitter is configured to sendacknowledgment/non-acknowledgment ACK/NACK to the base station devicewhen the signal receiver receives the PDSCH information.

With reference to the seventh possible implementation manner of thesixth aspect of the present invention, in an eighth possibleimplementation manner, the signal transmitter is specifically configuredto: determine, according to a correspondence between a subframe numberof a downlink subframe used to receive DCI and a subframe number of anuplink subframe used to send ACK/NACK, a subframe number of an uplinksubframe used to send the ACK/NACK, and send the ACK/NACK in the uplinksubframe corresponding to the determined subframe number of the uplinksubframe.

With reference to the seventh possible implementation manner of thesixth aspect of the present invention, in a ninth possibleimplementation manner, the signal transmitter is specifically configuredto: determine, according to a correspondence between a subframe numberof an uplink subframe used to receive PDSCH information and a subframenumber of an uplink subframe used to send ACK/NACK, a subframe number ofan uplink subframe used to send the ACK/NACK, and send the ACK/NACK inthe uplink subframe corresponding to the determined subframe number ofthe uplink subframe.

With reference to the seventh possible implementation manner of thesixth aspect of the present invention, or with reference to the eighthpossible implementation manner of the sixth aspect of the presentinvention, in a ninth possible implementation manner, the signaltransmitter is specifically configured to: reselect, when it isdetermined that the uplink subframe corresponding to the subframe numberof the uplink subframe used to send the ACK/NACK has been scheduled forsending a downlink service, an uplink subframe that has not beenscheduled for sending a downlink service and whose difference from thedetermined subframe number of the uplink subframe is the smallest, andsend the ACK/NACK in the reselected uplink subframe.

According to the embodiments of the present invention, a base stationdevice sends downlink control information DCI on a physical downlinkcontrol channel PDCCH of a downlink subframe, where the DCI is used toinstruct user equipment UE to receive physical downlink shared channelPDSCH information in an uplink subframe; and sends the PDSCH informationin the uplink subframe. In this way, the base station can effectivelyschedule an uplink subframe, and a purpose of transmitting a downlinkservice by using an uplink subframe is achieved, which not only improvesutilization of a wireless spectrum resource corresponding to the uplinksubframe, but also effectively diverts load pressure of a wirelessspectrum resource corresponding to a downlink subframe. Therefore,overall utilization of wireless spectrum resources of a system isimproved.

BRIEF DESCRIPTION OF DRAWINGS

To describe the technical solutions in the embodiments of the presentinvention more clearly, the following briefly describes the accompanyingdrawings required for describing the embodiments. Apparently, theaccompanying drawings in the following description show merely someembodiments of the present invention, and a person of ordinary skill inthe art may still derive other drawings from these accompanying drawingswithout creative efforts.

FIG. 1 is a schematic flowchart of a downlink control informationsending method according to Embodiment 1 of the present invention;

FIG. 2 is a schematic flowchart of a downlink control informationreceiving method according to Embodiment 3 of the present invention;

FIG. 3 is a schematic flowchart of a downlink control informationreceiving method according to Embodiment 4 of the present invention;

FIG. 4 is a schematic structural diagram of a downlink controlinformation sending device according to Embodiment 5 of the presentinvention;

FIG. 5 is a schematic structural diagram of a downlink controlinformation receiving device according to Embodiment 6 of the presentinvention;

FIG. 6 is a schematic structural diagram of a downlink controlinformation sending device according to Embodiment 7 of the presentinvention; and

FIG. 7 is a schematic structural diagram of a downlink controlinformation receiving device according to Embodiment 8 of the presentinvention.

DESCRIPTION OF EMBODIMENTS

To achieve the purpose of the present invention, embodiments of thepresent invention provide a downlink control information sending methodand device, and a downlink control information receiving method anddevice. A base station device sends downlink control information DCI ona physical downlink control channel PDCCH of a downlink subframe, wherethe DCI is used to instruct user equipment UE to receive physicaldownlink shared channel PDSCH information in an uplink subframe; andsends the PDSCH information in the uplink subframe. In this way, thebase station can effectively schedule an uplink subframe, and a purposeof transmitting a downlink service by using an uplink subframe isachieved, which not only improves utilization of a wireless spectrumresource corresponding to the uplink subframe, but also effectivelydiverts load pressure of a wireless spectrum resource corresponding to adownlink subframe. Therefore, overall utilization of wireless spectrumresources of a system is improved.

It should be noted that a downlink subframe involved in the embodimentsof the present invention is carried on a downlink carrier, and an uplinksubframe is carried on an uplink carrier. The downlink carrier and theuplink carrier are wireless spectrum resources configured for a basestation device in an FDD system. That is, the embodiments of the presentinvention are applied to the FDD system or another system similar to thefrequency division duplex system, and no specific limitation is imposedherein.

The following describes the embodiments of the present invention indetail with reference to accompanying drawings in this specification.Apparently, the described embodiments are merely some but not all of theembodiments of the present invention. All other embodiments obtained bya person of ordinary skill in the art based on the embodiments of thepresent invention without creative efforts shall fall within theprotection scope of the present invention.

Embodiment 1

As shown in FIG. 1, FIG. 1 is a schematic flowchart of a downlinkcontrol information sending method according to Embodiment 1 of thepresent invention. The method may be described as follows:

Step 101. A base station device sends downlink control information DCIon a physical downlink control channel PDCCH of a downlink subframe.

The DCI is used to instruct user equipment UE to receive PDSCH (physicaldownlink shared channel) information in an uplink subframe.

In step 101, in an LTE (Long Term Evolution) system, at each TTI(transmission time interval), the UE (user equipment) obtains the DCI(downlink control information) by detecting a PDCCH (physical downlinkcontrol channel) or an ePDCCH (enhanced physical downlink controlchannel).

The DCI includes downlink scheduling information and schedulingauthorization information of an uplink subframe.

In addition, the PDCCH is a physical downlink control channel, and islocated in a control field part of a time-frequency resource in asubframe, that is, the PDCCH occupies first N OFDM (orthogonal frequencydivision multiplexing) symbols of a subframe in a time-frequencyresource. A PCFICH (physical control format indicator channel) is usedto indicate the first N OFDM symbols occupied by the PDCCH channel.

It should be noted that N is greater than 0 and less than or equal to 3,and generally, when a system bandwidth is 1.4 M, a value of N is 4.

The ePDCCH occupies an entire subframe, and occupies one or more RBs(resource block) in terms of a frequency domain resource.

In this embodiment of the present invention, the physical downlinkcontrol channel PDCCH is a general term and includes the PDCCH locatedin the first N OFDM symbols of the subframe and/or the ePDCCH.

Specifically, the base station device sends the downlink controlinformation DCI on the physical downlink control channel PDCCH of thedownlink subframe, where the DCI is used to instruct the user equipmentUE to receive the physical downlink shared channel PDSCH information inthe uplink subframe. The DCI may be conventional DCI, or may be DCI in anew format.

If the DCI sent by the base station device is DCI in a new format, thata base station device sends DCI on a PDCCH of a downlink subframe meets:a quantity of bits of the DCI sent by the base station device is thesame as a quantity of bits of DCI format 0/format 1A sent by the basestation device, and the DCI sent by the base station device includes acheck code CRC and/or a scrambling code, where the CRC and/or thescrambling code is used to instruct the UE to receive the physicaldownlink shared channel PDSCH information in the uplink subframe.

In this case, in another embodiment of the present invention,optionally, before that a base station device sends downlink controlinformation DCI on a physical downlink control channel PDCCH of adownlink subframe, the method further includes:

sending, by the base station device, downlink transmission modeinformation to the user equipment UE, where the downlink transmissionmode information is used to instruct the UE to detect format informationof the downlink control information DCI.

Specifically, the sending, by the base station device, downlinktransmission mode information to the user equipment UE includes:

sending, by the base station device, the downlink transmission modeinformation to the user equipment UE by using RRC signaling.

Optionally, a subframe number of the uplink subframe used to instructthe UE to receive the PDSCH information is the same as a subframe numberof the downlink subframe used by the base station device to send theDCI.

Regardless of whether the base station device sends conventional DCI orDCI in a new format, in another embodiment of the present invention,optionally, before a base station device sends downlink controlinformation DCI on a physical downlink control channel PDCCH of adownlink subframe, the method further includes:

selecting, by the base station device, an uplink subframe that can beused to send the PDSCH information, and determining, according to acorrespondence between a subframe number of a downlink subframe used tosend DCI and a subframe number of an uplink subframe used to send PDSCHinformation, a subframe number that is of a downlink subframe andcorresponding to a subframe number of the selected uplink subframe usedto send the PDSCH information.

When scheduling a wireless spectrum resource, the base station devicecan determine which subframe in the uplink carrier is a relatively idlesubframe. In this case, the base station device may select a relativelyidle uplink subframe as the uplink subframe that can be used to send thePDSCH information. A manner in which the base station device selects theuplink subframe that can be used to send the PDSCH information may bedetermined according to an actual need, or may be determined accordingto experience, which is not limited herein.

It should be noted that the correspondence between a subframe number ofa downlink subframe used to send DCI and a subframe number of an uplinksubframe used to send PDSCH information may be configured by the basestation device in advance, may be determined through negotiation withthe user equipment, or may be sent to the base station device and theuser equipment after being configured in the system, which is notlimited herein.

If the correspondence between a subframe number of a downlink subframeused to send DCI and a subframe number of an uplink subframe used tosend PDSCH information is randomly configured by the base stationdevice, in this embodiment of the present invention, the method furtherincludes:

sending, by the base station device, a notification message to the userequipment UE.

The notification message is used to indicate the correspondence betweena subframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thenotification message includes at least one or more of a SIB (systeminformation block) and RRC (radio resource control) signaling.

It should be noted that, in the correspondence between a subframe numberof a downlink subframe used to send downlink control information DCI anda subframe number of an uplink subframe used to send physical downlinkshared channel PDSCH information, a specific time corresponding to thesubframe number of the downlink subframe may be the same as or may bedifferent from a specific time corresponding to the subframe number ofthe uplink subframe. If the downlink subframe completely does notoverlap the uplink subframe in terms of time, the base station devicecan avoid sending the DCI and the PDSCH at a same time, so that the UEdoes not need to cache data on frequency bands of both the downlinksubframe and the uplink subframe, and a caching capability of the UEdoes not need to be increased, that is, no extra overheads of the systemneeds to be increased. Therefore, a purpose of saving a system resourceis achieved.

In this way, the base station device schedules the PDSCH information tothe uplink subframe for sending, which helps to improve utilization of awireless spectrum resource.

For example, the subframe number of the uplink subframe that is selectedby the base station device and can be used to send the PDSCH informationis (n+m), and in this case, it is determined that a subframe number of adownlink subframe corresponding to the subframe number of the selecteduplink subframe used to send the PDSCH information is n according to thesubframe number (n+m) of the selected uplink subframe used to send thePDSCH information and the correspondence between a subframe number of adownlink subframe used to send DCI and a subframe number of an uplinksubframe used to send PDSCH information. In this case, the base stationdevice sends the DCI on a PDCCH of the downlink subframe whose subframenumber is n; where

n is a natural number, m is an integer greater than or equal to 1, and aspecific value of m may be determined in a predefined or preset manner,which is not limited herein.

Step 102. The base station device sends the PDSCH information in theuplink subframe.

In step 102, the base station device sends the PDSCH information in theselected uplink subframe.

It should be noted that, optionally, the uplink subframe used by thebase station device to send the PDSCH information is used to send onlythe PDSCH information, and is not used to send PDCCH information,physical control format indicator channel PCFICH information, orphysical hybrid automatic repeat request indicator channel (PHICH)information.

According to the solution of Embodiment 1 of the present invention, abase station device sends downlink control information DCI on a physicaldownlink control channel PDCCH of a downlink subframe, where the DCI isused to instruct user equipment UE to receive physical downlink sharedchannel PDSCH information in an uplink subframe; and sends the PDSCHinformation in the uplink subframe. In this way, the base station caneffectively schedule an uplink subframe, and a purpose of transmitting adownlink service by using an uplink subframe is achieved, which not onlyimproves utilization of a wireless spectrum resource corresponding tothe uplink subframe, but also effectively diverts load pressure of awireless spectrum resource corresponding to a downlink subframe.Therefore, overall utilization of wireless spectrum resources of asystem is improved.

Embodiment 2

In Embodiment 2, DCI that is in a new format and mentioned in Embodiment1 of the present invention is described in detail.

That a base station device sends DCI (may be recorded as DCI format 1A′)on a PDCCH of a downlink subframe meets:

a quantity of bits of the DCI sent by the base station device is thesame as a quantity of bits of DCI format 0/format 1A sent by the basestation device, and the DCI sent by the base station device includes acheck code CRC and/or a scrambling code, where the CRC and/or thescrambling code is used to instruct the UE to receive the physicaldownlink shared channel PDSCH information in the uplink subframe.

For example, a CRC of the DCI format 1A′ is determined in the followingmanner:

C_(k)=(a_(k)+(b_(k)+x_(rnti,k)) mod 2) mod 2, k=0,1, . . . ,15, where

a_(k) is a scrambling code, b_(k) is a CRC, and x_(rnti,k) is ascrambling or masking C-RNTI code.

a_(k) is used to instruct the UE to receive physical downlink sharedchannel PDSCH information in an uplink subframe. That is, a_(k) is usedto verify whether the CRC of the DCI is correct, and when a verificationresult is that the CRC is correct, it is determined that the DCI is usedto instruct the UE to receive the physical downlink shared channel PDSCHinformation in the uplink subframe.

In this way, a length of the DCI in the new format is the same as thequantity of bits of the DCI format 0/format 1A, and the length of theDCI is not increased; therefore, a quantity of times of blind detectionperformed by the UE is not increased either.

It should be noted that, a CRC of the DCI in the new format is notlimited to be obtained in the foregoing masking or scrambling manner,and a scrambled bit is not limited to 16 bits.

A format of the DCI format 1A′ includes but is not limited to thefollowing two types:

The first type of format is similar to the DCI format 1A, has only oneCRC, and includes an identification flag bit, a centralized anddistributed VRB allocation flag bit, an RB allocation bit, an MCS bit,an HARQ process ID, a new data indicator bit, a redundancy version bit,a PUCCH transmission control command bit, and the CRC, which are 44 bitsin total.

The identification flag bit occupies 1 bit, may exist or may not exist,and belongs to a redundant bit. The centralized and distributed VRBallocation flag bit occupies 1 bit. The RB allocation bit occupies 13bits. The MCS bit occupies 5 bits. The HARQ process ID occupies 3 bits.The new data indicator bit occupies 1 bit. The redundancy version bitoccupies 2 bits. The PUCCH transmission control command bit occupies 2bits. The CRC (obtained after scrambling or masking processing by usingthe scrambling or masking C-RNTI code x_(rnti,k) and the scrambling codea_(k)) occupies 16 bits.

It may be learned that a quantity of bits of the DCI format 1A′ is thesame as that of the DCI format 0/format 1A, and a difference lies inthat scrambling or masking processing has been performed, by using thescrambling or masking C-RNTI code x_(rnti,k) and the scrambling codea_(k), on a CRC included in the DCI format 1A′.

The second type of format is similar to design of the DCI format 1, mayhave two codewords, and includes an RB allocation bit, MCS bits of twocode blocks, an HARQ process ID, a transmission block-to-codewordmapping indicator bit, a new data indicator bit of a transmission block1, a redundancy version bit of the transmission block 1, a new dataindicator bit of a transmission block 2, a redundancy version bit of thetransmission block 2, and a CRC bit.

The RB allocation bit occupies 13 bits. The MCS bit of each of the twocode blocks occupies 5 bits, and for saving bits, MSCs of the two codeblocks are set to the same. The HARQ process ID occupies 3 bits. Thetransmission block-to-codeword mapping indicator bit occupies 1 bit. Thenew data indicator bit of the transmission block 1 occupies 1 bit. Theredundancy version bit of the transmission block 1 occupies 2 bits. Thenew data indicator bit of the transmission block 2 occupies 1 bit. Theredundancy version bit of the transmission block 2 occupies 2 bits. TheCRC (obtained after scrambling or masking processing by using thescrambling or masking C-RNTI code x_(rnti,k) and the scrambling codea_(k)) bit occupies 16 bits.

It may be learned that there are 44 bits in total, which are the same asthe quantity of bits of the DCI format 0/format 1A. A difference lies inthat scrambling or masking processing has been performed, by using thescrambling or masking C-RNTI code x_(rnti,k) and the scrambling codea_(k), on a CRC included in the DCI format 1A′.

Embodiment 2 of the present invention provides DCI in a new format. Whendetecting the DCI in the new format, UE may determine that a basestation device sends PDSCH information in an uplink subframe, andreceive, in an uplink subframe corresponding to a subframe number of adownlink subframe in which the DCI is received, the PDSCH informationsent by the base station device. Therefore, the base station deviceflexibly schedules an uplink subframe, and a purpose of transmitting adownlink service by using an uplink subframe is achieved, which not onlyimproves utilization of a wireless spectrum resource corresponding tothe uplink subframe, but also effectively diverts load pressure of awireless spectrum resource corresponding to a downlink subframe.Therefore, overall utilization of a wireless spectrum resource of asystem is improved.

Embodiment 3

As shown in FIG. 2, FIG. 2 is a schematic flowchart of a downlinkcontrol information receiving method according to Embodiment 3 of thepresent invention. The method may be described as follows:

Step 201. User equipment UE receives downlink control information DCIsent by a base station device.

The DCI instructs the UE to receive physical downlink shared channelPDSCH information in an uplink subframe.

In step 201, a manner in which the user equipment UE receives thedownlink control information DCI sent by the base station deviceincludes but is not limited to the following:

Manner 1: The UE receives, in a blind detection manner, the DCI sent bythe base station device.

Manner 2:

before the UE receives the downlink control information DCI sent by thebase station device, the method further includes: receiving, by the userequipment UE, downlink transmission mode information sent by the basestation device, where the downlink transmission mode information is usedto instruct the UE to detect format information of the downlink controlinformation DCI.

In the LTE release R8, a base station device notifies UE of a downlinktransmission mode in advance, so that the UE receives, by using RRCsignaling, downlink transmission mode information sent by the basestation device. According to the received downlink transmission modeinformation, the UE not only needs to detect downlink DCI, but alsoneeds to detect uplink DCI (that is, DCI format 0). However, because aquantity of bits of the DCI format 0 is the same as that of DCI format1A, a DCI format further needs to be determined when the DCI format isbeing detected.

The UE detects, according to a correspondence between downlinktransmission mode information and DCI, DCI corresponding to the receiveddownlink transmission mode information.

In this case, the manner in which the user equipment UE receives thedownlink control information DCI sent by the base station deviceincludes:

performing, by the UE according to the downlink transmission modeinformation, blind detection on the downlink control information DCIsent by the base station device, where the DCI sent by the base stationdevice meets: a quantity of bits of the DCI sent by the base stationdevice is the same as a quantity of bits of DCI format 0/format 1A sentby the base station device, and the DCI sent by the base station deviceincludes a check code CRC and/or a scrambling code, where the CRC and/orthe scrambling code is used to instruct the UE to receive the physicaldownlink shared channel PDSCH information in the uplink subframe.

Specifically, the performing, by the UE according to the downlinktransmission mode information, blind detection on the downlink controlinformation DCI sent by the base station device includes:

descrambling or demasking, by the UE each time a piece of DCI isdetected, a check code CRC of the detected DCI by using a scrambling ormasking C-RNTI code x_(rnti,k) and determining whether the CRC obtainedafter the descrambling or demasking is b_(k); and if the obtained CRC isnot b_(k), descrambling or demasking the CRC of the detected DCI byusing the scrambling or masking C-RNTI code x_(rnti,k) and a scramblingcode a_(k), and determining, when it is determined that the CRC obtainedafter the descrambling or demasking is C_(k), that the DCI sent by thebase station device and used to instruct the UE to receive the PDSCHinformation in the uplink subframe is received.

In an embodiment of the present invention, optionally, the methodfurther includes:

receiving, by the user equipment UE, a notification message sent by thebase station device.

The notification message is used to indicate a correspondence between asubframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thenotification message includes at least one or more of a systeminformation block SIB or radio resource control RRC signaling.

In another embodiment of the present invention, after that UE receivesDCI sent by a base station device, the method further includes:

determining, by the UE, a subframe number of a downlink subframe inwhich the DCI is received.

Step 202. The UE receives, according to the DCI, the PDSCH informationsent by the base station device in the uplink subframe.

In step 202, the UE determines, according to the correspondence betweena subframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thedetermined subframe number of the downlink subframe in which the DCI isreceived, a subframe number of the uplink subframe used by the basestation device to send the PDSCH information.

The UE receives, in the uplink subframe corresponding to the determinedsubframe number of the uplink subframe, the PDSCH information sent bythe base station device.

For example, the base station device sends the DCI on a PDCCH of adownlink subframe whose subframe number is n. It is determined,according to the correspondence between a subframe number of a downlinksubframe used to send DCI and a subframe number of an uplink subframeused to send PDSCH information, that the base station device sends thePDSCH information in an uplink subframe whose subframe number is (n+m),where

n is a natural number, m is an integer greater than or equal to 1, and aspecific value of m may be determined in a predefined or preset manner,which is not limited herein.

If the UE detects downlink DCI in the downlink subframe whose subframenumber is n, the UE determines, according to the received correspondencebetween a subframe number of a downlink subframe used to send DCI and asubframe number of an uplink subframe used to send PDSCH information,that the base station device is to send the PDSCH information in theuplink subframe whose subframe number is (n+m) and receive, in theuplink subframe corresponding to the subframe number (n+m) of the uplinksubframe, the PDSCH information sent by the base station device.

Step 203. The UE sends acknowledgment/non-acknowledgment ACK/NACK to thebase station device.

In step 203, a manner in which the UE sends the ACK/NACK to the basestation device includes but is not limited to the following two types:

In the first type, a subframe number of an uplink subframe used to sendthe ACK/NACK is determined according to the downlink subframe in whichthe DCI sent by the base station device is received.

Specifically, when receiving the DCI sent by the base station device,the UE determines, according to a correspondence between a subframenumber of a downlink subframe used to send DCI and a subframe number ofan uplink subframe used to send ACK/NACK, the subframe number of theuplink subframe used to send the ACK/NACK, and sends the ACK/NACK in theuplink subframe corresponding to the determined subframe number of theuplink subframe.

It should be noted that a correspondence between all or any two of asubframe number of a downlink subframe used to send DCI, a subframenumber of an uplink subframe used to send PDSCH information, or asubframe number of an uplink subframe used to send ACK/NACK may bepre-determined by the base station device, or may be determined by thebase station device according to an actual need, or may be obtainedthrough negotiation, which is not limited herein.

For example, if the UE receives the DCI in the downlink subframe whosesubframe number is n, the UE determines, according to the correspondencebetween a subframe number of a downlink subframe used to send DCI and asubframe number of an uplink subframe used to send ACK/NACK, that theACK/NACK needs to be sent in an uplink subframe corresponding to asubframe number (n+k), where k is greater than or equal to 4.

In the second type, a subframe number of an uplink subframe used to sendthe ACK/NACK is determined according to the uplink subframe in which thePDSCH information sent by the base station device is received.

Specifically, when receiving the PDSCH information sent by the basestation device, the UE determines, according to a correspondence betweena subframe number of an uplink subframe used to send PDSCH informationand a subframe number of an uplink subframe used to send ACK/NACK, thesubframe number of the uplink subframe used to send the ACK/NACK, andsends the ACK/NACK in the uplink subframe corresponding to thedetermined subframe number of the uplink subframe.

It should be noted that a correspondence between all or any two of asubframe number of a downlink subframe used to send DCI, a subframenumber of an uplink subframe used to send PDSCH information, or asubframe number of an uplink subframe used to send ACK/NACK may bepre-determined by the base station device, or may be determined by thebase station device according to an actual need, or may be obtainedthrough negotiation, which is not limited herein.

For example, if the UE receives the PDSCH information in the uplinksubframe whose subframe number is n, the UE determines, according to thecorrespondence between a subframe number of an uplink subframe used tosend PDSCH information and a subframe number of an uplink subframe usedto send ACK/NACK, that the ACK/NACK needs to be sent in an uplinksubframe corresponding to a subframe number (n+k), where k is greaterthan or equal to 4.

When determining that the uplink subframe corresponding to the subframenumber of the uplink subframe used to send the ACK/NACK has beenscheduled for sending a downlink service, the UE reselects an uplinksubframe that has not been scheduled for sending a downlink service andwhose difference from the determined subframe number of the uplinksubframe is the smallest, and sends the ACK/NACK in the reselecteduplink subframe.

Specifically, the determined subframe number (n+k) used to send theACK/NACK may be corresponding to an uplink subframe used to send adownlink service; in this case, it is required to find the first uplinksubframe from subframes whose subframe numbers are subsequent to thesubframe number (n+k), and the uplink subframe is used to send an uplinkservice, and the ACK/NACK is sent by using the found first uplinksubframe.

That is, once a conflict between an uplink resource and a downlinkresource occurs, the base station device may avoid the conflict by usinga resource scheduling algorithm.

By using the solution according to Embodiment 3 of the presentinvention, user equipment receives DCI sent by a base station device,and receives, according to the DCI, PDSCH information sent by the basestation device in an uplink subframe. Therefore, the base station deviceflexibly schedules an uplink subframe, and a purpose of transmitting adownlink service by using an uplink subframe is achieved, which not onlyimproves utilization of a wireless spectrum resource corresponding tothe uplink subframe, but also effectively diverts load pressure of awireless spectrum resource corresponding to a downlink subframe.Therefore, overall utilization of a wireless spectrum resource of asystem is improved.

Embodiment 4

As shown in FIG. 3, FIG. 3 is a schematic flowchart of a downlinkcontrol information receiving method according to Embodiment 4 of thepresent invention. The method may be described as follows:

Step 301. User equipment UE receives downlink transmission modeinformation sent by a base station device.

The downlink transmission mode information is used to instruct the UE todetect format information of downlink control information DCI.

In step 301, in the LTE release R8, a base station device notifies UE ofa downlink transmission mode in advance, so that the UE receives, byusing RRC signaling, downlink transmission mode information sent by thebase station device. According to the received downlink transmissionmode information, the UE not only needs to detect downlink DCI, but alsoneeds to detect uplink DCI (that is, DCI format 0). However, because aquantity of bits of the DCI format 0 is the same as that of DCI format1A, a DCI format further needs to be determined when the DCI format isbeing detected.

Step 302. The UE detects, according to a correspondence between downlinktransmission mode information and DCI, DCI corresponding to the receiveddownlink transmission mode information.

In step 302, the UE performs, according to the downlink transmissionmode information, blind detection on downlink control information DCIsent by the base station device, where the DCI sent by the base stationdevice meets: a quantity of bits of the DCI sent by the base stationdevice is the same as a quantity of bits of the DCI format 0/format 1A,and the DCI sent by the base station device includes a check code CRCand/or a scrambling code, where the CRC and/or the scrambling code isused to instruct the UE to receive physical downlink shared channelPDSCH information in an uplink subframe.

Specifically, each time the UE detects a piece of DCI, the UEdescrambles or demasks a check code CRC of the detected DCI by using ascrambling or masking C-RNTI code x_(rnti,k) and determines whether theCRC obtained after the descrambling or demasking is b_(k); and if theobtained CRC is not b_(k), step 303 is performed; otherwise, the DCI isobtained by detection in Manner 1 in step 201, and then subsequentcontent in step 202 and step 203 is performed.

Step 303. The UE descrambles or demasks a CRC of the detected DCI byusing a scrambling or masking C-RNTI code x_(rnti,k) and a scramblingcode a_(k).

Step 304. When determining that the CRC obtained after the descramblingor demasking is C_(k), the UE determines that DCI sent by the basestation device and used to instruct the UE to receive PDSCH informationin an uplink subframe is received.

Optionally, a subframe number of the uplink subframe used to instructthe UE to receive the PDSCH information is the same as a subframe numberof a downlink subframe used by the base station device to send the DCI.

Step 305. The UE determines, according to the DCI, a subframe number ofa downlink subframe in which the DCI is received.

Step 306. The UE receives, according to the DCI, the PDSCH informationsent by the base station device in the uplink subframe.

In step 306, the UE determines, according to a correspondence between asubframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thedetermined subframe number of the downlink subframe in which the DCI isreceived, the subframe number of the uplink subframe used by the basestation device to send the PDSCH information.

The UE receives, in the uplink subframe corresponding to the determinedsubframe number of the uplink subframe, the PDSCH information sent bythe base station device.

For example, the base station device sends the DCI on a PDCCH of adownlink subframe whose subframe number is n. It is determined,according to the correspondence between a subframe number of a downlinksubframe used to send DCI and a subframe number of an uplink subframeused to send PDSCH information, that the base station device sends thePDSCH information in an uplink subframe whose subframe number is (n+m),where

n is a natural number, m is an integer greater than or equal to 1, and aspecific value of m may be determined in a predefined or preset manner,which is not limited herein.

It should be noted that, the value of m may also be 0, that is, the basestation device sends the DCI on the PDCCH of the downlink subframe whosesubframe number is n, and at the same time, sends the PDSCH informationin an uplink subframe whose subframe number is n.

If the UE detects downlink DCI in the downlink subframe whose subframenumber is n, the UE determines, according to the received correspondencebetween a subframe number of a downlink subframe used to send DCI and asubframe number of an uplink subframe used to send PDSCH information,that the base station device is to send the PDSCH information in theuplink subframe whose subframe number is (n+m) and receive, in theuplink subframe corresponding to the subframe number (n+m) of the uplinksubframe, the PDSCH information sent by the base station device.

Step 307. The UE sends acknowledgment/non-acknowledgment ACK/NACK to thebase station device.

In step 307, a manner in which the UE sends the ACK/NACK to the basestation device includes but is not limited to the following two types:

In the first type, a subframe number of an uplink subframe used to sendthe ACK/NACK is determined according to the downlink subframe in whichthe DCI sent by the base station device is received.

Specifically, when receiving the DCI sent by the base station device,the UE determines, according to a correspondence between a subframenumber of a downlink subframe used to send DCI and a subframe number ofan uplink subframe used to send ACK/NACK, the subframe number of theuplink subframe used to send the ACK/NACK, and sends the ACK/NACK in theuplink subframe corresponding to the determined subframe number of theuplink subframe.

It should be noted that a correspondence between all or any two of asubframe number of a downlink subframe used to send DCI, a subframenumber of an uplink subframe used to send PDSCH information, or asubframe number of an uplink subframe used to send ACK/NACK may bepre-determined by the base station device, or may be determined by thebase station device according to an actual need, or may be obtainedthrough negotiation, which is not limited herein.

For example, if the UE receives the DCI in the downlink subframe whosesubframe number is n, the UE determines, according to the correspondencebetween a subframe number of a downlink subframe used to send DCI and asubframe number of an uplink subframe used to send ACK/NACK, that theACK/NACK needs to be sent in an uplink subframe corresponding to asubframe number (n+k), where k is greater than or equal to 4.

In the second type, a subframe number of an uplink subframe used to sendthe ACK/NACK is determined according to the uplink subframe in which thePDSCH information sent by the base station device is received.

Specifically, when receiving the PDSCH information sent by the basestation device, the UE determines, according to a correspondence betweena subframe number of an uplink subframe used to send PDSCH informationand a subframe number of an uplink subframe used to send ACK/NACK, thesubframe number of the uplink subframe used to send the ACK/NACK, andsends the ACK/NACK in the uplink subframe corresponding to thedetermined subframe number of the uplink subframe.

It should be noted that a correspondence between all or any two of asubframe number of a downlink subframe used to send DCI, a subframenumber of an uplink subframe used to send PDSCH information, or asubframe number of an uplink subframe used to send ACK/NACK may bepre-determined by the base station device, or may be determined by thebase station device according to an actual need, or may be obtainedthrough negotiation, which is not limited herein.

For example, if the UE receives the PDSCH information in the uplinksubframe whose subframe number is n, the UE determines, according to thecorrespondence between a subframe number of an uplink subframe used tosend PDSCH information and a subframe number of an uplink subframe usedto send ACK/NACK, that the ACK/NACK needs to be sent in an uplinksubframe corresponding to a subframe number (n+k), where k is greaterthan or equal to 4.

When determining that the uplink subframe corresponding to the subframenumber of the uplink subframe used to send the ACK/NACK has beenscheduled for sending a downlink service, the UE reselects an uplinksubframe that has not been scheduled for sending a downlink service andwhose difference from the determined subframe number of the uplinksubframe is the smallest, and sends the ACK/NACK in the reselecteduplink subframe.

Specifically, the determined subframe number (n+k) used to send theACK/NACK may be corresponding to an uplink subframe used to send adownlink service; in this case, it is required to find the first closetuplink subframe from subframes whose subframe numbers are subsequent tothe subframe number (n+k), and the uplink subframe is used to send anuplink service, and the ACK/NACK is sent by using the found first closetuplink subframe.

That is, once a conflict between an uplink resource and a downlinkresource occurs, the base station device may avoid the conflict by usinga resource scheduling algorithm.

By using the solution according to Embodiment 4 of the presentinvention, user equipment receives DCI sent by a base station device,and receives, according to the DCI, PDSCH information sent by the basestation device in an uplink subframe. Therefore, the base station deviceflexibly schedules an uplink subframe, and a purpose of transmitting adownlink service by using an uplink subframe is achieved, which not onlyimproves utilization of a wireless spectrum resource corresponding tothe uplink subframe, but also effectively diverts load pressure of awireless spectrum resource corresponding to a downlink subframe.Therefore, overall utilization of a wireless spectrum resource of asystem is improved.

Embodiment 5

As shown in FIG. 4, FIG. 4 is a schematic structural diagram of adownlink control information sending device according to Embodiment 5 ofthe present invention. The sending device provided in Embodiment 5 ofthe present invention is capable of performing the methods in Embodiment1 of the present invention and Embodiment 2 of the present invention,and the sending device includes: a downlink control information DCIsending module 41 and a physical downlink shared channel PDSCHinformation sending module 42.

The downlink control information DCI sending module 41 is configured tosend downlink control information DCI on a physical downlink controlchannel PDCCH of a downlink subframe, where the DCI is used to instructuser equipment UE to receive physical downlink shared channel PDSCHinformation in an uplink subframe.

The physical downlink shared channel PDSCH information sending module 42is configured to send the PDSCH information in the uplink subframe.

Optionally, the device further includes a notification message sendingmodule 43.

The notification message sending module 43 is configured to send anotification message to the user equipment UE, where the notificationmessage is used to indicate a correspondence between a subframe numberof a downlink subframe used to send DCI and a subframe number of anuplink subframe used to send PDSCH information, and the notificationmessage includes at least one or more of a system information block SIBor radio resource control RRC signaling.

In another embodiment of the present invention, that the sending devicesends the DCI on the PDCCH of the downlink subframe meets: a quantity ofbits of the DCI sent by the sending device is the same as a quantity ofbits of DCI format 0/format 1A sent by the sending device, and the DCIsent by the sending device includes a check code CRC and/or a scramblingcode, where the CRC and/or the scrambling code is used to instruct theUE to receive the physical downlink shared channel PDSCH information inthe uplink subframe.

Optionally, a subframe number of the uplink subframe used to instructthe UE to receive the PDSCH information is the same as a subframe numberof the downlink subframe used by the sending device to send the DCI.

Optionally, the sending device further includes a mode informationsending module 44.

The mode information sending module 44 is configured to send downlinktransmission mode information to the user equipment UE before the DCIsending module 41 sends the downlink control information DCI on thephysical downlink control channel PDCCH of the downlink subframe, wherethe downlink transmission mode information is used to instruct the UE todetect format information of the downlink control information DCI.

Specifically, the mode information sending module 44 is specificallyconfigured to send the downlink transmission mode information to theuser equipment UE by using radio resource control RRC signaling.

Optionally, the sending device further includes a subframe determiningmodule 45.

The subframe determining module 45 is configured to: before the DCIsending module 41 sends the downlink control information DCI on thephysical downlink control channel PDCCH of the downlink subframe, selectan uplink subframe that can be used to send the PDSCH information, anddetermine, according to a correspondence between a subframe number of adownlink subframe used to send DCI and a subframe number of an uplinksubframe used to send PDSCH information, a subframe number that is of adownlink subframe and corresponding to a subframe number of the selecteduplink subframe used to send the PDSCH information.

The DCI sending module 41 is specifically configured to send thedownlink control information DCI on the physical downlink controlchannel PDCCH of the downlink subframe corresponding to the determinedsubframe number of the downlink subframe.

The PDSCH sending module 42 is specifically configured to send the PDSCHinformation in the selected uplink subframe.

Optionally, the uplink subframe used by the base station device to sendthe PDSCH information is used to send only the PDSCH information, and isnot used to send PDCCH information, physical control format indicatorchannel PCFICH information, or physical hybrid automatic repeat requestindicator channel PHICH information.

Optionally, the uplink subframe is carried on an uplink carrier, thedownlink subframe is carried on a downlink carrier, and the uplinkcarrier and the downlink carrier are wireless spectrum resourcesconfigured in a frequency division duplex FDD system.

It should be noted that the sending device provided in Embodiment 5 ofthe present invention may be implemented in a hardware manner, or may beimplemented in a software manner, which is not limited herein. Inaddition, the sending device provided in Embodiment 5 of the presentinvention may be a logical unit inside a base station device, or alogical component inside another similar device having a function of abase station.

By using the sending device, a base station device can flexibly schedulean uplink subframe, and a purpose of transmitting a downlink service byusing an uplink subframe is achieved, which not only improvesutilization of a wireless spectrum resource corresponding to the uplinksubframe, but also effectively diverts load pressure of a wirelessspectrum resource corresponding to a downlink subframe. Therefore,overall utilization of wireless spectrum resources of a system isimproved.

Embodiment 6

As shown in FIG. 5, FIG. 5 is a schematic structural diagram of adownlink control information receiving device according to Embodiment 6of the present invention. The receiving device according to Embodiment 6of the present invention has functions of performing Embodiment 3 of thepresent invention and Embodiment 4 of the present invention, and thereceiving device includes: a downlink control information DCI receivingmodule 51 and a physical downlink shared channel PDSCH informationreceiving module 52.

The downlink control information DCI receiving module 51 is configuredto receive downlink control information DCI sent by a base stationdevice, where the DCI instructs UE to receive physical downlink sharedchannel PDSCH information in an uplink subframe.

The physical downlink shared channel PDSCH information receiving module52 is configured to receive, according to the DCI received by the DCIreceiving module, the PDSCH information sent by the base station devicein the uplink subframe.

Optionally, the receiving device further includes a notification messagereceiving module 53.

The notification message receiving module 53 is configured to receive anotification message sent by the base station device, where thenotification message is used to indicate a correspondence between asubframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thenotification message includes at least one or more of a systeminformation block SIB or radio resource control RRC signaling.

Specifically, the DCI receiving module 51 is specifically configured toreceive, in a blind detection manner, the DCI sent by the base stationdevice.

Optionally, the receiving device further includes a transmission modeinformation receiving module 54.

The transmission mode information receiving module 54 is configured toreceive, before the DCI receiving module receives the downlink controlinformation DCI sent by the base station device, downlink transmissionmode information sent by the base station device, where the downlinktransmission mode information is used to instruct the UE to detectformat information of the downlink control information DCI.

Specifically, the DCI receiving module 51 is specifically configured to:perform, according to the downlink transmission mode information, blinddetection on the downlink control information DCI sent by the basestation device, where the DCI sent by the base station device meets: aquantity of bits of the DCI sent by the base station device is the sameas a quantity of bits of DCI format 0/format 1A sent by the base stationdevice, and the DCI sent by the base station device includes a checkcode CRC and/or a scrambling code, where the CRC and/or the scramblingcode is used to instruct the UE to receive the physical downlink sharedchannel PDSCH information in the uplink subframe.

The DCI receiving module 51 is specifically configured to: descramble ordemask, each time a piece of DCI is detected, a check code CRC of thedetected DCI by using a scrambling or masking C-RNTI code x_(rnti,k) anddetermine whether the CRC obtained after the descrambling or demaskingis b_(k); and

if the obtained CRC is not b_(k), descramble or demask the CRC of thedetected DCI by using the scrambling or masking C-RNTI code x_(rnti,k)and a scrambling code a_(k), and determine, when it is determined thatthe CRC obtained after the descrambling or demasking is C_(k), that theDCI sent by the base station device and used to instruct the UE toreceive the PDSCH information in the uplink subframe is received.

Optionally, the receiving device further includes a subframe numberdetermining module 55.

The subframe number determining module 55 is configured to determine,after the DCI receiving module receives the DCI sent by the base stationdevice, a subframe number of a downlink subframe in which the DCI isreceived.

The PDSCH information receiving module 52 is specifically configured to:determine, according to the correspondence between a subframe number ofa downlink subframe used to send DCI and a subframe number of an uplinksubframe used to send PDSCH information, and the determined subframenumber of the downlink subframe in which the DCI is received, a subframenumber of the uplink subframe used by the base station device to sendthe PDSCH information; and receive, in the uplink subframe correspondingto the determined subframe number of the uplink subframe, the PDSCHinformation sent by the base station device.

Optionally, the receiving device further includes a sending module 56.

The sending module 56 is configured to sendacknowledgment/non-acknowledgment ACK/NACK to the base station devicewhen the PDSCH information receiving module receives the PDSCHinformation.

Specifically, the sending module 56 is specifically configured to:determine, according to a correspondence between a subframe number of adownlink subframe used to receive DCI and a subframe number of an uplinksubframe used to send ACK/NACK, a subframe number of an uplink subframeused to send the ACK/NACK, and send the ACK/NACK in the uplink subframecorresponding to the determined subframe number of the uplink subframe.

The sending module 56 is specifically configured to: determine,according to a correspondence between a subframe number of an uplinksubframe used to receive PDSCH information and a subframe number of anuplink subframe used to send ACK/NACK, a subframe number of an uplinksubframe used to send the ACK/NACK, and send the ACK/NACK in the uplinksubframe corresponding to the determined subframe number of the uplinksubframe.

The sending module 56 is specifically configured to: reselect, when itis determined that the uplink subframe corresponding to the subframenumber of the uplink subframe used to send the ACK/NACK has beenscheduled for sending a downlink service, an uplink subframe that hasnot been scheduled for sending a downlink service and whose differencefrom the determined subframe number of the uplink subframe is thesmallest, and send the ACK/NACK in the reselected uplink subframe.

It should be noted that the receiving device provided in Embodiment 6 ofthe present invention may be implemented in a hardware manner, or may beimplemented in a software manner, which is not limited herein. Inaddition, the receiving device provided in Embodiment 6 of the presentinvention may be a logical unit inside user equipment, or a logicalcomponent inside another mobile device.

Through cooperation between the sending device according to Embodiment 5of the present invention and the receiving device according toEmbodiment 6 of the present invention, a base station device canflexibly schedule an uplink subframe, and a purpose of transmitting adownlink service by using an uplink subframe is achieved, which not onlyimproves utilization of a wireless spectrum resource corresponding tothe uplink subframe, but also effectively diverts load pressure of awireless spectrum resource corresponding to a downlink subframe.Therefore, overall utilization of wireless spectrum resources of asystem is improved.

Embodiment 7

As shown in FIG. 6, FIG. 6 is a schematic structural diagram of adownlink control information sending device according to Embodiment 7 ofthe present invention. The sending device according to Embodiment 7 ofthe present invention is capable of performing the methods in Embodiment1 of the present invention and Embodiment 2 of the present invention,and the sending device includes: a signal transmitter 61 and a processor62, where the signal transmitter 61 and the processor 62 are connectedby using a communications bus 63.

The signal transmitter 61 is configured to send downlink controlinformation DCI on a physical downlink control channel PDCCH of adownlink subframe, where the DCI is used to instruct user equipment UEto receive physical downlink shared channel PDSCH information in anuplink subframe.

The signal transmitter 61 is further configured to send the PDSCHinformation in the uplink subframe.

Optionally, the signal transmitter 61 is further configured to send anotification message to the user equipment UE, where the notificationmessage is used to indicate a correspondence between a subframe numberof a downlink subframe used to send DCI and a subframe number of anuplink subframe used to send PDSCH information, and the notificationmessage includes at least one or more of a system information block SIBor radio resource control RRC signaling.

Optionally, that the sending device sends the DCI on the PDCCH of thedownlink subframe meets: a quantity of bits of the DCI sent by thesending device is the same as a quantity of bits of DCI format 0/format1A sent by the sending device, and the DCI sent by the sending deviceincludes a check code CRC and/or a scrambling code, where the CRC and/orthe scrambling code is used to instruct the UE to receive the physicaldownlink shared channel PDSCH information in the uplink subframe.

Optionally, a subframe number of the uplink subframe used to instructthe UE to receive the PDSCH information is the same as a subframe numberof the downlink subframe used by the base station device to send theDCI.

Optionally, the signal transmitter 61 is further configured to senddownlink transmission mode information to the user equipment UE beforesending the downlink control information DCI on the physical downlinkcontrol channel PDCCH of the downlink subframe, where the downlinktransmission mode information is used to instruct the UE to detectformat information of the downlink control information DCI.

Specifically, the signal transmitter 61 is specifically configured tosend the downlink transmission mode information to the user equipment UEby using radio resource control RRC signaling.

Optionally, the sending device further includes the processor 62.

The processor 62 is configured to: before the downlink controlinformation DCI is sent on the physical downlink control channel PDCCHof the downlink subframe, select an uplink subframe that can be used tosend the PDSCH information, and determine, according to thecorrespondence between a subframe number of a downlink subframe used tosend DCI and a subframe number of an uplink subframe used to send PDSCHinformation, a subframe number that is of a downlink subframe andcorresponding to a subframe number of the selected uplink subframe usedto send the PDSCH information.

The signal transmitter 61 is specifically configured to send thedownlink control information DCI on the physical downlink controlchannel PDCCH of the downlink subframe corresponding to the determinedsubframe number of the downlink subframe.

The signal transmitter 61 is further specifically configured to send thePDSCH information in the selected uplink subframe.

Optionally, the uplink subframe used by the sending device to send thePDSCH information is used to send only the PDSCH information, and is notused to send PDCCH information, physical control format indicatorchannel PCFICH information, or physical hybrid automatic repeat requestindicator channel PHICH information.

Optionally, the uplink subframe is carried on an uplink carrier, thedownlink subframe is carried on a downlink carrier, and the uplinkcarrier and the downlink carrier are wireless spectrum resourcesconfigured in a frequency division duplex FDD system.

It should be noted that the processor 62 may be a general centralprocessing unit (CPU), a microprocessor, an application-specificintegrated circuit (Application-Specific Integrated Circuit, ASIC), orone or more integrated circuits used to control execution of programs inthe solutions of the present invention.

By using the sending device, a base station device can flexibly schedulean uplink subframe, and a purpose of transmitting a downlink service byusing an uplink subframe is achieved, which not only improvesutilization of a wireless spectrum resource corresponding to the uplinksubframe, but also effectively diverts load pressure of a wirelessspectrum resource corresponding to a downlink subframe. Therefore,overall utilization of wireless spectrum resources of a system isimproved.

Embodiment 8

As shown in FIG. 7, FIG. 7 is a schematic structural diagram of adownlink control information receiving device according to Embodiment 8of the present invention. The receiving device according to Embodiment 8of the present invention is capable of performing the methods inEmbodiment 3 of the present invention and Embodiment 4 of the presentinvention, and the receiving device includes: a signal receiver 71 and aprocessor 72, where the signal receiver 71 and the processor 72 areconnected by using a communications bus 73.

The signal receiver 71 is configured to receive downlink controlinformation DCI sent by a base station device, where the DCI instructsthe UE to receive physical downlink shared channel PDSCH information inan uplink subframe.

The signal receiver 71 is further configured to receive, according tothe DCI, the PDSCH information sent by the base station device in theuplink subframe.

Optionally, the signal receiver 71 is further configured to receive anotification message sent by the base station device, where thenotification message is used to indicate a correspondence between asubframe number of a downlink subframe used to send DCI and a subframenumber of an uplink subframe used to send PDSCH information, and thenotification message includes at least one or more of a systeminformation block SIB or radio resource control RRC signaling.

Specifically, the signal receiver 71 is specifically configured toreceive, in a blind detection manner, the DCI sent by the base stationdevice.

Optionally, the signal receiver 71 is further configured to receive,before receiving the downlink control information DCI sent by the basestation device, downlink transmission mode information sent by the basestation device, where the downlink transmission mode information is usedto instruct the UE to detect format information of the downlink controlinformation DCI.

Specifically, the signal receiver 71 is specifically configured toperform, according to the downlink transmission mode information, blinddetection on the downlink control information DCI sent by the basestation device, where the DCI sent by the base station device meets: aquantity of bits of the DCI sent by the base station device is the sameas a quantity of bits of DCI format 0/format 1A sent by the base stationdevice, and the DCI sent by the base station device includes a checkcode CRC and/or a scrambling code, where the CRC and/or the scramblingcode is used to instruct the UE to receive the physical downlink sharedchannel PDSCH information in the uplink subframe.

Specifically, the signal receiver 71 is specifically configured to:descramble or demask, each time a piece of DCI is detected, a check codeCRC of the detected DCI by using a scrambling or masking C-RNTI codex_(rnti,k) and determine whether the CRC obtained after the descramblingor demasking is b_(k); and

if the obtained CRC is not b_(k) descramble or demask the CRC of thedetected DCI by using the scrambling or masking C-RNTI code x_(rnti,k)and a scrambling code a_(k), and determine, when it is determined thatthe CRC obtained after the descrambling or demasking is C_(k), that theDCI sent by the base station device and used to instruct the UE toreceive the PDSCH information in the uplink subframe is received.

Optionally, the receiving device further includes the processor 72.

The processor 72 is configured to determine, after the signal receiverreceives the DCI sent by the base station device, a subframe number of adownlink subframe in which the DCI is received.

The signal receiver 71 is specifically configured to: determine,according to the correspondence between a subframe number of a downlinksubframe used to send DCI and a subframe number of an uplink subframeused to send PDSCH information, and the determined subframe number ofthe downlink subframe in which the DCI is received, a subframe number ofthe uplink subframe used by the base station device to send the PDSCHinformation; and receive, in the uplink subframe corresponding to thedetermined subframe number of the uplink subframe, the PDSCH informationsent by the base station device.

Optionally, the receiving device further includes a signal transmitter74.

The signal transmitter 74 is configured to sendacknowledgment/non-acknowledgment ACK/NACK to the base station devicewhen the signal receiver receives the PDSCH information.

Specifically, the signal transmitter 74 is specifically configured to:determine, according to a correspondence between a subframe number of adownlink subframe used to receive DCI and a subframe number of an uplinksubframe used to send ACK/NACK, a subframe number of an uplink subframeused to send the ACK/NACK, and send the ACK/NACK in the uplink subframecorresponding to the determined subframe number of the uplink subframe.

Specifically, the signal transmitter 74 is specifically configured to:determine, according to a correspondence between a subframe number of anuplink subframe used to receive PDSCH information and a subframe numberof an uplink subframe used to send ACK/NACK, a subframe number of anuplink subframe used to send the ACK/NACK, and send the ACK/NACK in theuplink subframe corresponding to the determined subframe number of theuplink subframe.

Specifically, the signal transmitter 74 is specifically configured to:reselect, when it is determined that the uplink subframe correspondingto the subframe number of the uplink subframe used to send the ACK/NACKhas been scheduled for sending a downlink service, an uplink subframethat has not been scheduled for sending a downlink service and whosedifference from the determined subframe number of the uplink subframe isthe smallest, and send the ACK/NACK in the reselected uplink subframe.

It should be noted that the processor 72 may be a general centralprocessing unit (CPU), a microprocessor, an application-specificintegrated circuit (ASIC), or one or more integrated circuits used tocontrol execution of programs in the solutions of the present invention.

Through cooperation between the sending device according to Embodiment 7of the present invention and the receiving device according toEmbodiment 8 of the present invention, a base station device canflexibly schedule an uplink subframe, and a purpose of transmitting adownlink service by using an uplink subframe is achieved, which not onlyimproves utilization of a wireless spectrum resource corresponding tothe uplink subframe, but also effectively diverts load pressure of awireless spectrum resource corresponding to a downlink subframe.Therefore, overall utilization of wireless spectrum resources of asystem is improved.

A person skilled in the art should understand that the embodiments ofthe present invention may be provided as a method, an apparatus(device), or a computer program product. Therefore, the presentinvention may use a form of hardware only embodiments, software onlyembodiments, or embodiments with a combination of software and hardware.Moreover, the present invention may use a form of a computer programproduct that is implemented on one or more computer-usable storage media(including but not limited to a disk memory, a CD-ROM, an opticalmemory, and the like) that include computer-usable program code.

The present invention is described with reference to the flowchartsand/or block diagrams of the method, the apparatus (device), and thecomputer program product according to the embodiments of the presentinvention. It should be understood that computer program instructionsmay be used to implement each process and/or each block in theflowcharts and/or the block diagrams and a combination of a processand/or a block in the flowcharts and/or the block diagrams. Thesecomputer program instructions may be provided for a general-purposecomputer, a dedicated computer, an embedded processor, or a processor ofany other programmable data processing device to generate a machine, sothat the instructions executed by a computer or a processor of any otherprogrammable data processing device generate an apparatus forimplementing a specific function in one or more processes in theflowcharts and/or in one or more blocks in the block diagrams.

These computer program instructions may also be stored in a computerreadable memory that can instruct the computer or any other programmabledata processing device to work in a specific manner, so that theinstructions stored in the computer readable memory generate an artifactthat includes an instruction apparatus. The instruction apparatusimplements a specific function in one or more processes in theflowcharts and/or in one or more blocks in the block diagrams.

These computer program instructions may also be loaded onto a computeror another programmable data processing device, so that a series ofoperations and steps are performed on the computer or the anotherprogrammable device, thereby generating computer-implemented processing.Therefore, the instructions executed on the computer or the anotherprogrammable device provide steps for implementing a specific functionin one or more processes in the flowcharts and/or in one or more blocksin the block diagrams.

Although some preferred embodiments of the present invention have beendescribed, persons skilled in the art can make changes and modificationsto these embodiments once they learn the basic inventive concept.Therefore, the following claims are intended to be construed as to coverthe preferred embodiments and all changes and modifications fallingwithin the scope of the present invention.

Obviously, a person skilled in the art can make various modificationsand variations to the present invention without departing from thespirit and scope of the present invention. The present invention isintended to cover these modifications and variations provided that theyfall within the scope of protection defined by the following claims andtheir equivalent technologies.

What is claimed is:
 1. A downlink control information sending method,comprising: sending, by a base station device, downlink controlinformation (DCI) on a physical downlink control channel (PDCCH) in adownlink time resource, wherein the DCI is used to instruct userequipment (UE) to receive physical downlink shared channel (PDSCH)information in an uplink time resource; and sending, by the base stationdevice, the PDSCH information in the uplink time resource.
 2. The methodaccording to claim 1, wherein the method further comprises: sending, bythe base station device, a notification message to the UE, wherein thenotification message is used to indicate a correspondence between a timeresource number of a downlink time resource used to send DCI and a timeresource number of an uplink time resource used to send PDSCHinformation, and the notification message comprises at least one or moreof a system information block (SIB) or radio resource control (RRC)signaling.
 3. The method according to claim 1, wherein the sending, by abase station device, DCI on a PDCCH in a downlink time resource meets: aquantity of bits of the DCI sent by the base station device is the sameas a quantity of bits of DCI format 0/format 1A sent by the basestation, and the DCI sent by the base station device comprises a CRCand/or a scrambling code, wherein the CRC and/or the scrambling code isused to instruct the UE to receive the PDSCH information in the uplinktime resource.
 4. The method according to claim 1, wherein before thesending, by a base station device, DCI on a PDCCH in a downlink timeresource, the method further comprises: selecting, by the base stationdevice, an uplink time resource that can be used to send the PDSCHinformation, and determining, according to a correspondence between atime resource number of a downlink time resource used to send DCI and atime resource number of an uplink time resource used to send PDSCHinformation, a time resource number that is of a downlink time resourceand corresponding to a time resource number of the selected uplink timeresource used to send the PDSCH information; the sending, by a basestation device, downlink control information DCI on a PDCCH in adownlink time resource comprises: sending, by the base station device,the downlink control information DCI on the PDCCH in the downlink timeresource corresponding to the determined time resource number of thedownlink time resource; and the sending, by the base station device, thePDSCH information in the uplink time resource comprises: sending, by thebase station device, the PDSCH information in the selected uplink timeresource.
 5. The method according to claim 1, wherein the uplink timeresource is carried on an uplink carrier, the downlink time resource iscarried on a downlink carrier, and the uplink carrier and the downlinkcarrier are wireless spectrum resources configured in a frequencydivision duplex (FDD) system.
 6. A downlink control informationreceiving method, comprising: receiving, by user equipment (UE),downlink control information (DCI) from a base station device, whereinthe DCI instructs the UE to receive physical downlink shared channel(PDSCH) information in an uplink time resource; and receiving, by the UEaccording to the DCI, the PDSCH information from the base station devicein the uplink time resource.
 7. The method according to claim 6, whereinthe method further comprises: receiving, by the UE, a notificationmessage from the base station device, wherein the notification messageis used to indicate a correspondence between a time resource number of adownlink time resource used to send DCI and a time resource number of anuplink time resource used to send PDSCH information, and thenotification message comprises at least one or more of a systeminformation block (SIB) or radio resource control (RRC) signaling. 8.The method according to claim 6, wherein the receiving, by UE, DCI froma base station device comprises: performing, by the UE according todownlink transmission mode information, blind detection on the DCI fromthe base station device, wherein the DCI from the base station devicemeets: a quantity of bits of the DCI from the base station device thatcorresponds to a quantity of bits of DCI format 0/format 1A from thebase station device, and the DCI from the base station device comprisesa cyclic redundancy check (CRC) and/or a scrambling code, wherein theCRC and/or the scrambling code is used to instruct the UE to receive thePDSCH information in the uplink time resource.
 9. The method accordingto claim 8, wherein the performing, by the UE according to the downlinktransmission mode information, blind detection on the DCI from the basestation device comprises: descrambling or demasking, by the UE each timea piece of DCI is detected, a CRC of the detected DCI by using ascrambling or masking C-RNTI code x_(rnti,k) and determining whether theCRC obtained after the descrambling or demasking is b_(k); and if theobtained CRC is not b_(k) descrambling or demasking the CRC of thedetected DCI by using the scrambling or masking C-RNTI code x_(rnti,k)and a scrambling code a_(k), and determining, when the CRC obtainedafter the descrambling or demasking is C_(k), that the DCI from the basestation device and used to instruct the UE to receive the PDSCHinformation in the uplink time resource is received.
 10. The methodaccording to claim 6, wherein when the UE receives the PDSCHinformation, the method further comprises: determining, by the UEaccording to a correspondence between a time resource number of adownlink time resource used to receive DCI and a time resource number ofan uplink time resource used to send ACK/NACK, a time resource number ofan uplink time resource used to send the ACK/NACK, and sending theACK/NACK in the uplink time resource corresponding to the determinedtime resource number of the uplink time resource.
 11. A downlink controlinformation sending device, comprising: a signal transmitter, configuredto send downlink control information (DCI) on a physical downlinkcontrol channel (PDCCH) in a downlink time resource, wherein the DCI isused to instruct user equipment (UE) to receive physical downlink sharedchannel (PDSCH) information in an uplink time resource; and the signaltransmitter is further configured to send the PDSCH information in theuplink time resource.
 12. The sending device according to claim 11,wherein: the signal transmitter is further configured to send anotification message to the UE, wherein the notification message is usedto indicate a correspondence between a time resource number of adownlink time resource used to send DCI and a time resource number of anuplink time resource used to send PDSCH information, and thenotification message comprises at least one or more of a systeminformation block (SIB) or radio resource control (RRC) signaling. 13.The sending device according to claim 11, wherein that the sendingdevice sends the DCI on the PDCCH in the downlink time resource meets: aquantity of bits of the DCI sent by the sending device is the same as aquantity of bits of DCI format 0/format 1A sent by the sending device,and the DCI sent by the sending device comprises a cyclic redundancycheck (CRC) and/or a scrambling code, wherein the CRC and/or thescrambling code is used to instruct the UE to receive the PDSCHinformation in the uplink time resource.
 14. The sending deviceaccording to claim 11, wherein the sending device further comprises: aprocessor, wherein the processor is configured to: before the DCI issent on the PDCCH in the downlink time resource, select an uplink timeresource that can be used to send the PDSCH information, and determine,according to the correspondence between a time resource number of adownlink time resource used to send DCI and a time resource number of anuplink time resource used to send PDSCH information, a time resourcenumber that is of a downlink time resource and corresponding to a timeresource number of the selected uplink time resource used to send thePDSCH information; the signal transmitter is specifically configured tosend the DCI on the PDCCH in the downlink time resource corresponding tothe determined time resource number of the downlink time resource; andthe signal transmitter is further specifically configured to send thePDSCH information in the selected uplink time resource.
 15. The sendingdevice according to claim 11, wherein the uplink time resource iscarried on an uplink carrier, the downlink time resource is carried on adownlink carrier, and the uplink carrier and the downlink carrier arewireless spectrum resources configured in a frequency division duplex(FDD) system.
 16. A downlink control information receiving device,comprising: a signal receiver, configured to receive downlink controlinformation (DCI) from a base station device, wherein the DCI instructsuser equipment (UE) to receive physical downlink shared channel (PDSCH)information in an uplink time resource; and the signal receiver isfurther configured to receive, according to the DCI, the PDSCHinformation from the base station device in the uplink time resource.17. The receiving device according to claim 16, wherein: the signalreceiver is further configured to receive a notification message fromthe base station device, wherein the notification message is used toindicate a correspondence between a time resource number of a downlinktime resource used to send DCI and a time resource number of an uplinktime resource used to send PDSCH information, and the notificationmessage comprises at least one or more of a system information block(SIB) or radio resource control (RRC) signaling.
 18. The receivingdevice according to claim 16, wherein: the signal receiver isspecifically configured to perform, according to downlink transmissionmode information, blind detection on the DCI from the base stationdevice, wherein the DCI from the base station device meets: a quantityof bits of the DCI from the base station device that corresponds to aquantity of bits of DCI format 0/format 1A from the base station device,and the DCI from the base station device comprises a cyclic redundancycheck (CRC) and/or a scrambling code, wherein the CRC and/or thescrambling code is used to instruct the UE to receive the PDSCHinformation in the uplink time resource.
 19. The receiving deviceaccording to claim 18, wherein the signal receiver is specificallyconfigured to: descramble or demask, each time a piece of DCI isdetected, a CRC of the detected DCI by using a scrambling or maskingC-RNTI code x_(rnti,k), and determine whether the CRC obtained after thedescrambling or demasking is b_(k); and if the obtained CRC is not b_(k)descramble or demask the CRC of the detected DCI by using the scramblingor masking C-RNTI code x_(rnti,k) and a scrambling code a_(k), anddetermine, when the CRC obtained after the descrambling or demasking isC_(k), that the DCI from the base station device and used to instructthe UE to receive the PDSCH information in the uplink time resource isreceived.
 20. The receiving device according to claim 16, wherein thereceiving device further comprises: a signal transmitter, the signaltransmitter is specifically configured to: determine, according to acorrespondence between a time resource number of a downlink timeresource used to receive DCI and a time resource number of an uplinktime resource used to send ACK/NACK, a time resource number of an uplinktime resource used to send the ACK/NACK, and send the ACK/NACK in theuplink time resource corresponding to the determined time resourcenumber of the uplink time resource.